- Projected 21st|century changes in marine heterotrophic bacteria ...🔍
- The global distribution and climate resilience of marine ...🔍
- Present and future global distributions of the marine Cyanobacteria ...🔍
- Abrupt shifts in 21st|century plankton communities🔍
- Publications🔍
- Severe warming = 15% increase in bacterial respiration🔍
- Temperature and substrates as interactive limiting factors for marine ...🔍
- Global Trends in Marine Plankton Diversity across Kingdoms of Life🔍
Projected 21st|century changes in marine heterotrophic bacteria ...
Projected 21st-century changes in marine heterotrophic bacteria ...
Marine heterotrophic Bacteria (or referred to as bacteria) play an important role in the ocean carbon cycle by utilizing, respiring, ...
Projected 21st-century changes in marine heterotrophic bacteria ...
Marine heterotrophic Bacteria (or referred to as bacteria) play an important role in the ocean carbon cycle by utilizing, respiring, ...
Projected 21st-century changes in marine heterotrophic bacteria ...
Bacterial carbon biomass declines by 5–10% globally, while it increases by 3–5% in the Southern Ocean where semi-labile dissolved organic carbon ...
Projected 21st-century changes in marine heterotrophic bacteria ...
Bacterial carbon biomass declines by 5–10% globally, while it increases by 3–5% in the Southern Ocean where semi-labile dissolved organic carbon ...
Projected 21st-century changes in marine heterotrophic bacteria ...
Projected 21st-century changes in marine heterotrophic bacteria under climate change · Frontiers in Microbiology, February 2023 · 10.3389/fmicb.2023.1049579.
Projected 21st-century changes in marine heterotrophic bacteria ...
Climate change-related warming reduces thermal sensitivity and modifies metabolic activity of coastal benthic bacterial communities. 收藏.
The global distribution and climate resilience of marine ... - Nature
Under climate change, global prokaryotic biomass in surface waters is projected to decline ~1.5% per °C of warming, while prokaryotic respiration will increase ...
Present and future global distributions of the marine Cyanobacteria ...
Using projections of sea surface temperature as a result of increased concentration of greenhouse gases at the end of the 21st century, our niche models ...
Abrupt shifts in 21st-century plankton communities | Science Advances
Marine microbial communities sustain ocean food webs and mediate global elemental cycles. These communities will change with climate; ...
Kim, H. H., Laufkötter, C., Lovato, T., Doney, S. C., and Ducklow, H. W. (2023). Projected 21st-century changes in marine heterotrophic bacteria under climate ...
Severe warming = 15% increase in bacterial respiration
Three crucial findings were revealed. There is a global-scale decrease in bacterial biomass of 5-10%, with a 3-5% increase in the Southern Ocean ...
Temperature and substrates as interactive limiting factors for marine ...
In permanently cold polar waters, most heterotrophic bacteria appear to be living at temperatures well below their optima for growth. Nevertheless, bacteria in ...
Global Trends in Marine Plankton Diversity across Kingdoms of Life
Projections into the future suggest that severe warming of the surface ocean by the end of the 21st century could lead to tropicalization of the ...
Microbial food web changes induced by terrestrial organic matter ...
Climate change has been projected to cause increased temperature and amplified inflows of terrestrial organic matter to coastal areas in northern Europe.
Heather Kim, PhD on X: "NEW PAPER ALERT Excited to share our ...
... heterotrophic bacteria under climate change ... Frontiers | Projected 21st-century changes in marine heterotrophic bacteria under climate change.
Multiple stressors of ocean ecosystems in the 21st century
explicit or implicit representation of heterotrophic bacteria ... 6 in the Southern Ocean. 3.2.3 Projected pH changes over depth.
bacteria - Ocean Carbon & Biogeochemistry
This production feeds more and larger heterotrophic bacteria, who then feed larger predators—specifically the same zooplankton that consume Prochlorococcus. If ...
Modeling polar marine ecosystem functions guided by bacterial ...
The initial colonization of marine particles by heterotrophic bacteria represents the first step in recycling this carbon back to inorganic ...
Changing Ocean, Marine Ecosystems, and Dependent Communities
Both sea level and stratification are expected to exhibit robust secular positive trends in the coming century due to climate change, at rates that are ...